JEWISH KING JESUS IS COMING AT THE RAPTURE FOR US IN THE CLOUDS-DON'T MISS IT FOR THE WORLD.THE BIBLE TAKEN LITERALLY- WHEN THE PLAIN SENSE MAKES GOOD SENSE-SEEK NO OTHER SENSE-LEST YOU END UP IN NONSENSE.GET SAVED NOW- CALL ON JESUS TODAY.THE ONLY SAVIOR OF THE WHOLE EARTH - NO OTHER.
1 COR 15:23-JESUS THE FIRST FRUITS-CHRISTIANS RAPTURED TO JESUS-FIRST FRUITS OF THE SPIRIT-23 But every man in his own order: Christ the firstfruits; afterward they that are Christ’s at his coming.ROMANS 8:23 And not only they, but ourselves also, which have the firstfruits of the Spirit, even we ourselves groan within ourselves, waiting for the adoption, to wit, the redemption of our body.(THE PRE-TRIB RAPTURE)
UN 2030 SUSTAINABLE DEVELOPEMENT-CONTROL FREAK TREATY
https://sustainabledevelopment.un.org/
https://sustainabledevelopment.un.org/post2015/transformingourworld
https://sustainabledevelopment.un.org/post2015/summit
https://sustainabledevelopment.un.org/hlpf (JULY 2015 MEETING)
Chapter 1: The science-policy interface-The objective of this chapter is to identify elements relating to the science-policy interface (SPI) that are relevant to Member States within the broader context of the high-level political forum on sustainable development (HLPF), and in particular with regard to policy coherence, integration and implementation of sustainable development. The chapter will identify important issues related to the SPI that the HLPF and the GSDR may want to address in the future. It will highlight two issues in more details: i) the coverage of the sustainable development goals (SDGs) areas by existing international assessments; and ii) some linkages between the international and national levels of SPI. The chapter’s content will rely on: crowdsourcing data from scientific and policy networks, a literature review, and inputs from UN agencies.Key questions to be addressed:What critical issues are relevant to intergovernmental discussions on science-policy interface for sustainable development? What is the coverage of the sustainable development goals by existing international assessments? How well are national and international science-policy interfaces linked together?
Chapter 2: Integrated perspectives on the Sustainable Development Goals (SDGs)-This chapter will provide a global, integrated perspective on the Sustainable Development Goals. In particular, it will explore the “system” defined by the SDGs. It will map the present system at the global level, locate the SDG targets in the system, and draw lessons for the next few years from an integrated analysis, including in terms of identifying and illustrating key action points and major inter-linkages that cannot be disregarded. It will also assess existing scenario models and related tools, in terms of their ability to support a truly integrated assessment of progress and transition pathways toward the SDGs in the coming decades.Key questions to be addressed:What lessons can be learnt from integrated perspectives on the Sustainable Development Goals? How strong are the inter-linkages between the subsystems associated with each of the goals and how does a map of the overall system look like? How well do existing assessment models and processes cover the main clusters and inter-linkages among goals? What are the gaps and how could they be overcome? What lessons for SDG implementation can be learnt from selected integrated scenario models?
Chapter 3: The oceans, seas, marine resources and human well-being nexus-The chapter aims to demonstrate the necessity of using an integrated approach when dealing with the oceans, seas, marine resources and human well-being nexus at the sub-national, national, regional and global level. It identifies important inter-linkages between nexus areas and elaborates on important classes of threats affecting it. The chapter examines the scientific coverage of interlinkages and threats, lists illustrative scientific reports and indicates areas for further research as suggested by contributing experts. The chapter documents selected case studies that illustrate the inter-linkages between nexus areas and the need to use an integrated approach when implementing measures at the sub-national and regional levels with the aim of creating positive impacts for both humans and the environment.-Annex I: Extended versions of tables-Table 3-1: Important inter-linkages between oceans, seas, marine resources and human well-being (Extended version) –IN PROGRESS-Table 3-3: Impact of important classes of threats on oceans, seas, marine resources and human well-being nexus (Extended version) –IN PROGRESS-Table 3-4: Selected regional and local case studies of addressing threats affecting the nexus (Extended version) –IN PROGRESS-Chapter Contributions-Conceptual grounding on the biodiversity – poverty nexus - Kiel University-Fisheries and aquaculture – promoting decent work as a strategy for responsible fishing - FAO-French Marine Protected Areas Agency-Institute of Marine Research, Bergen, Norway-Ocean-Biodiversity-Poverty alleviation nexus - IOC/UNESCO-Poverty Implications of Ocean Health: The neglected billions - Kiel Institute for the World Economy-Small-scale fisheries– bringing together social development and responsible fisheries - FAO-The Role of the Engineer in the Preservation of the Coastal Environment, Department of Civil and Environmental Engineering-UNOOSA Input-Vulnerability of Nearshore Ecosystems from Rapid Intensive Coastal Development - Chinese Academy of Fishery Sciences, State Oceanic Administration-Wildlife, equity, profits: Socioeconomic implications of marine conservation. The Integrated Marine Protected Areas Socio-Economic Monitoring (IMPASEM) framework
Chapter 4: Disaster risk reduction: cross-cutting issues in the context of the SDGs-The proposal of the Open Working Group on SDGs includes five targets on resilience and disaster risk reduction. Separately, the third UN World Conference on Disaster Risk Reduction to be organized on 14-18 March in Sendai, Japan, is expected to agree on a successor to the Hyogo Framework for Action (HFA) for the post-2015 era. This chapter will focus on how science can guide Member States in establishing relevant target levels on deaths and economic losses caused by disasters based on existing scientific knowledge. It will also give an overview of selected new scientific solutions to addressing disaster risk.Key questions to be addressed:How can science contribute to evidence-based target level setting on disaster risk reduction? How can policy-makers use findings from disaster risk scenarios? What are the emerging solutions that science can provide to address disaster risk?-Chapter Contributions-DISASTER REDUCTION THROUGH RISK TARGETS-BRGM (French Geological Survey), Orléans, France-Disaster Risk Governance: The essential linkage between DRR and SDGs-Disaster risk reduction; a cross-cutting necessity in the SDGs-University College London-DRR: a commentary on data, science and risk assessment-Estimating populations affected by disasters: A review of methodological issues and research gaps-Université catholique de Louvain, Brussels-Evidence based target setting for disaster risk reduction in urban areas-Kyoto University, Japan-Loss Data Underpinning Disaster Risk Reduction-Monitoring disaster risk reduction targets: the example of INFORM-European Commission, Joint Research Centre-MONITORING SUSTAINABLE DEVELOPMENT GOALS: NOTE ON BASELINES FOR DRR TARGETS AND INDICATORS-University of Louvain, Brussels-RESPONSABILIDADE SOCIOAMBIENTAL, GESTÃO PÚBLICA E GERENCIAMENTO DE RISCOS.
Chapter 5: Economic growth, inclusive and sustainable industrial development, and sustainable consumption and production-This chapter will discuss the role of industrialization in shaping structural transformation and economic growth for sustainable development. It will explore how certain aspects of sustainable consumption and production (SCP) are linked to industrial development and can further enhance sustainable industrialization. While it is generally understood that structural transformation and industrialization are required to achieve poverty reduction and substantial improvements in socio-economic conditions in developing countries, the role of industrial policy has been the subject of a long and varied debate, which at times obstructed a more important discussion on the content, efficacy and strategic priorities of those policies. The chapter will review the assessment of the role and application of industrial policy for sustainable development in the current macroeconomic context and taking into account new global economic and environmental challenges. It will highlight inclusive and sustainable industrial development as a strategy to promote and incentivize sustainable economic growth. It will also address the use of industrial policy for development of green industrial sectors and the greening of industrial production, which are central to sustainable structural transformation and industrial upgrading in all countries.Key questions to be addressed:What is the role of industrial policy for achieving inclusive and sustainable economic growth to support the post-2015 development objectives? How can industrial policies be used to facilitate transformational change to sustainable development and to incentivise resource efficiency and sustainable production and consumption? What other supportive measures have worked and could be scaled up to facilitate a shift towards more resource efficient and sustainable production and consumption patterns? Chapter Contributions-The grand green challenge: Assessing progress in eco-innovation through Y02 patents.
Chapter 6: Countries in special situations-The objective of this chapter is to use countries in special situations to illustrate how science has influenced (or could influence) policy. By taking stock of the existing points of contact between science and policy in the context of these countries, the chapter will highlight good practices and give concrete examples of the gaps that need to be addressed. It will be an input to the discussions during the HLPF. The chapter will focus on the group of countries in special situations, namely Small Island Developing States (SIDS), Least Developed Countries (LDCs) and Landlocked Developing Countries (LLDCs).Key questions to be addressed:What exists and where are the gaps in the areas such as scientific assessments, new and emerging issues and national reviews for each group of countries? What evidence is there for effective science-policy interface? Chapter Contributions-Basic data on ICT in education in Landlocked Developing Countries (LLDCs), Least Developed Countries (LDCs) and Small Island Developing States (SIDS) - UNESCO-Education in Least Developed Countries (LDCs) - UNESCO Institute for Statistics-Education in Small Island Developing States (SIDS) - UNESCO Institute for Statistics-hare of medium- and high-skill and technology-intensive manufactures in country's total merchandise exports (2010-2013)-Input on LDCs to GDSR 2015 - UNCTAD LDC Section-Science, technology and innovation in Landlocked Developing Countries, Least Developed Countries and Small Island Developing States-UNESCO’s Action in Landlocked Developing Countries (LLDCs)-United Nations Department of Economic and Social Affairs.
Chapter 7 - Science Issues for the Attention of Policy Makers-This chapter will review current approaches to identifying emerging issues in sustainable development using a typology and discussing pros and cons. It will then report on the results of an outreach to scientific communities across the world to prepare short briefs for the benefit of the HLPF on issues, research findings and solutions for the attention of decision-makers. It will also summarize outcomes of an informal meeting between scientists and policy makers designed to foster a dialogue on how scientific identification of emerging issues could better inform policy making. It will present selected briefs that have attracted the most interest via the online platform. It will also report on examples and suggestions made by young scientists on “big data” approaches for sustainable development.Key questions to be addressed:Which methods are currently being used to identify emerging issues and what are their pros and cons? Which science issues and solutions that are not prominently being discussed at the UN level should be considered by decision-makers?
Chapter 8: Conclusions and way forward-This chapter will present key messages from preceding chapters of this year's GSDR. It will also present suggestions on how the GSDR could support the work of the HLPF on the science-policy interface in the future. It will propose options for deliverables that yearly editions of the GSDR could provide for the benefit of Member States, within the context of a multi-year publication cycle. The themes that these deliverables would span, based on the 2014 and 2015 editions of the GSDR, include: strengthening the science-policy interface in the context of the HLPF and international decision making; integrated analysis of pathways to the sustainable development goals and the potential contributions of global modelling communities; nexuses of interlinked goals and cross-cutting issues in the context of the SDGs; countries in special situations; confronting scientific and policy perspectives on emerging issues in sustainable development; and measuring progress.
THE REST OF THE INFO HERE
https://sustainabledevelopment.un.org/globalsdreport/2015/chapter1
UN 2030 SUSTAINABLE DEVELOPEMENT-CONTROL FREAK TREATY
https://sustainabledevelopment.un.org/
https://sustainabledevelopment.un.org/post2015/transformingourworld
https://sustainabledevelopment.un.org/post2015/summit
https://sustainabledevelopment.un.org/hlpf (JULY 2015 MEETING)
Chapter 1: The science-policy interface-The objective of this chapter is to identify elements relating to the science-policy interface (SPI) that are relevant to Member States within the broader context of the high-level political forum on sustainable development (HLPF), and in particular with regard to policy coherence, integration and implementation of sustainable development. The chapter will identify important issues related to the SPI that the HLPF and the GSDR may want to address in the future. It will highlight two issues in more details: i) the coverage of the sustainable development goals (SDGs) areas by existing international assessments; and ii) some linkages between the international and national levels of SPI. The chapter’s content will rely on: crowdsourcing data from scientific and policy networks, a literature review, and inputs from UN agencies.Key questions to be addressed:What critical issues are relevant to intergovernmental discussions on science-policy interface for sustainable development? What is the coverage of the sustainable development goals by existing international assessments? How well are national and international science-policy interfaces linked together?
Chapter 2: Integrated perspectives on the Sustainable Development Goals (SDGs)-This chapter will provide a global, integrated perspective on the Sustainable Development Goals. In particular, it will explore the “system” defined by the SDGs. It will map the present system at the global level, locate the SDG targets in the system, and draw lessons for the next few years from an integrated analysis, including in terms of identifying and illustrating key action points and major inter-linkages that cannot be disregarded. It will also assess existing scenario models and related tools, in terms of their ability to support a truly integrated assessment of progress and transition pathways toward the SDGs in the coming decades.Key questions to be addressed:What lessons can be learnt from integrated perspectives on the Sustainable Development Goals? How strong are the inter-linkages between the subsystems associated with each of the goals and how does a map of the overall system look like? How well do existing assessment models and processes cover the main clusters and inter-linkages among goals? What are the gaps and how could they be overcome? What lessons for SDG implementation can be learnt from selected integrated scenario models?
Chapter 3: The oceans, seas, marine resources and human well-being nexus-The chapter aims to demonstrate the necessity of using an integrated approach when dealing with the oceans, seas, marine resources and human well-being nexus at the sub-national, national, regional and global level. It identifies important inter-linkages between nexus areas and elaborates on important classes of threats affecting it. The chapter examines the scientific coverage of interlinkages and threats, lists illustrative scientific reports and indicates areas for further research as suggested by contributing experts. The chapter documents selected case studies that illustrate the inter-linkages between nexus areas and the need to use an integrated approach when implementing measures at the sub-national and regional levels with the aim of creating positive impacts for both humans and the environment.-Annex I: Extended versions of tables-Table 3-1: Important inter-linkages between oceans, seas, marine resources and human well-being (Extended version) –IN PROGRESS-Table 3-3: Impact of important classes of threats on oceans, seas, marine resources and human well-being nexus (Extended version) –IN PROGRESS-Table 3-4: Selected regional and local case studies of addressing threats affecting the nexus (Extended version) –IN PROGRESS-Chapter Contributions-Conceptual grounding on the biodiversity – poverty nexus - Kiel University-Fisheries and aquaculture – promoting decent work as a strategy for responsible fishing - FAO-French Marine Protected Areas Agency-Institute of Marine Research, Bergen, Norway-Ocean-Biodiversity-Poverty alleviation nexus - IOC/UNESCO-Poverty Implications of Ocean Health: The neglected billions - Kiel Institute for the World Economy-Small-scale fisheries– bringing together social development and responsible fisheries - FAO-The Role of the Engineer in the Preservation of the Coastal Environment, Department of Civil and Environmental Engineering-UNOOSA Input-Vulnerability of Nearshore Ecosystems from Rapid Intensive Coastal Development - Chinese Academy of Fishery Sciences, State Oceanic Administration-Wildlife, equity, profits: Socioeconomic implications of marine conservation. The Integrated Marine Protected Areas Socio-Economic Monitoring (IMPASEM) framework
Chapter 4: Disaster risk reduction: cross-cutting issues in the context of the SDGs-The proposal of the Open Working Group on SDGs includes five targets on resilience and disaster risk reduction. Separately, the third UN World Conference on Disaster Risk Reduction to be organized on 14-18 March in Sendai, Japan, is expected to agree on a successor to the Hyogo Framework for Action (HFA) for the post-2015 era. This chapter will focus on how science can guide Member States in establishing relevant target levels on deaths and economic losses caused by disasters based on existing scientific knowledge. It will also give an overview of selected new scientific solutions to addressing disaster risk.Key questions to be addressed:How can science contribute to evidence-based target level setting on disaster risk reduction? How can policy-makers use findings from disaster risk scenarios? What are the emerging solutions that science can provide to address disaster risk?-Chapter Contributions-DISASTER REDUCTION THROUGH RISK TARGETS-BRGM (French Geological Survey), Orléans, France-Disaster Risk Governance: The essential linkage between DRR and SDGs-Disaster risk reduction; a cross-cutting necessity in the SDGs-University College London-DRR: a commentary on data, science and risk assessment-Estimating populations affected by disasters: A review of methodological issues and research gaps-Université catholique de Louvain, Brussels-Evidence based target setting for disaster risk reduction in urban areas-Kyoto University, Japan-Loss Data Underpinning Disaster Risk Reduction-Monitoring disaster risk reduction targets: the example of INFORM-European Commission, Joint Research Centre-MONITORING SUSTAINABLE DEVELOPMENT GOALS: NOTE ON BASELINES FOR DRR TARGETS AND INDICATORS-University of Louvain, Brussels-RESPONSABILIDADE SOCIOAMBIENTAL, GESTÃO PÚBLICA E GERENCIAMENTO DE RISCOS.
Chapter 5: Economic growth, inclusive and sustainable industrial development, and sustainable consumption and production-This chapter will discuss the role of industrialization in shaping structural transformation and economic growth for sustainable development. It will explore how certain aspects of sustainable consumption and production (SCP) are linked to industrial development and can further enhance sustainable industrialization. While it is generally understood that structural transformation and industrialization are required to achieve poverty reduction and substantial improvements in socio-economic conditions in developing countries, the role of industrial policy has been the subject of a long and varied debate, which at times obstructed a more important discussion on the content, efficacy and strategic priorities of those policies. The chapter will review the assessment of the role and application of industrial policy for sustainable development in the current macroeconomic context and taking into account new global economic and environmental challenges. It will highlight inclusive and sustainable industrial development as a strategy to promote and incentivize sustainable economic growth. It will also address the use of industrial policy for development of green industrial sectors and the greening of industrial production, which are central to sustainable structural transformation and industrial upgrading in all countries.Key questions to be addressed:What is the role of industrial policy for achieving inclusive and sustainable economic growth to support the post-2015 development objectives? How can industrial policies be used to facilitate transformational change to sustainable development and to incentivise resource efficiency and sustainable production and consumption? What other supportive measures have worked and could be scaled up to facilitate a shift towards more resource efficient and sustainable production and consumption patterns? Chapter Contributions-The grand green challenge: Assessing progress in eco-innovation through Y02 patents.
Chapter 6: Countries in special situations-The objective of this chapter is to use countries in special situations to illustrate how science has influenced (or could influence) policy. By taking stock of the existing points of contact between science and policy in the context of these countries, the chapter will highlight good practices and give concrete examples of the gaps that need to be addressed. It will be an input to the discussions during the HLPF. The chapter will focus on the group of countries in special situations, namely Small Island Developing States (SIDS), Least Developed Countries (LDCs) and Landlocked Developing Countries (LLDCs).Key questions to be addressed:What exists and where are the gaps in the areas such as scientific assessments, new and emerging issues and national reviews for each group of countries? What evidence is there for effective science-policy interface? Chapter Contributions-Basic data on ICT in education in Landlocked Developing Countries (LLDCs), Least Developed Countries (LDCs) and Small Island Developing States (SIDS) - UNESCO-Education in Least Developed Countries (LDCs) - UNESCO Institute for Statistics-Education in Small Island Developing States (SIDS) - UNESCO Institute for Statistics-hare of medium- and high-skill and technology-intensive manufactures in country's total merchandise exports (2010-2013)-Input on LDCs to GDSR 2015 - UNCTAD LDC Section-Science, technology and innovation in Landlocked Developing Countries, Least Developed Countries and Small Island Developing States-UNESCO’s Action in Landlocked Developing Countries (LLDCs)-United Nations Department of Economic and Social Affairs.
Chapter 7 - Science Issues for the Attention of Policy Makers-This chapter will review current approaches to identifying emerging issues in sustainable development using a typology and discussing pros and cons. It will then report on the results of an outreach to scientific communities across the world to prepare short briefs for the benefit of the HLPF on issues, research findings and solutions for the attention of decision-makers. It will also summarize outcomes of an informal meeting between scientists and policy makers designed to foster a dialogue on how scientific identification of emerging issues could better inform policy making. It will present selected briefs that have attracted the most interest via the online platform. It will also report on examples and suggestions made by young scientists on “big data” approaches for sustainable development.Key questions to be addressed:Which methods are currently being used to identify emerging issues and what are their pros and cons? Which science issues and solutions that are not prominently being discussed at the UN level should be considered by decision-makers?
Chapter 8: Conclusions and way forward-This chapter will present key messages from preceding chapters of this year's GSDR. It will also present suggestions on how the GSDR could support the work of the HLPF on the science-policy interface in the future. It will propose options for deliverables that yearly editions of the GSDR could provide for the benefit of Member States, within the context of a multi-year publication cycle. The themes that these deliverables would span, based on the 2014 and 2015 editions of the GSDR, include: strengthening the science-policy interface in the context of the HLPF and international decision making; integrated analysis of pathways to the sustainable development goals and the potential contributions of global modelling communities; nexuses of interlinked goals and cross-cutting issues in the context of the SDGs; countries in special situations; confronting scientific and policy perspectives on emerging issues in sustainable development; and measuring progress.
THE REST OF THE INFO HERE
https://sustainabledevelopment.un.org/globalsdreport/2015/chapter1
